Calculating-machine.



no. 638,|l8. Patented Nov. 28, I899. DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

(Application filed Nov. 26, 1897.) (No Model.) 15 Sheets8heet l.

N0. 638,ll8. Patented NOV. 28, I899. DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

(Application filed Nov. 26, 1897.) (No Model.) I5 Sheets-Sheet 2.

N0. 638,l|8. Patented Nov. 28,1899. DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

(Application filed Nov. 28, 1897.) (No Model.) 15 Sheets$heet 3.

Patented Nov. 28, I899.

, DE KERNIEA J. T. YHIETT.

CALCULATING MACHINE.

(Application filed Nov. 26, 1897.)

I5 $heets-Sheet 4,

(No Model.)

:IEE:

aeafi I DE KEBNIEA J. T. HIETT.

CALCULATING MACHINE.

(Application filed Nov. 26, 1897.)

I5 Sheets-Sheet 5.

.(No Model.)

R N X Iihiwiw i I J 1 11144111.. AA I: i V W my &

rlllk No. 638',|l8.. Patented "Nov. 28, I899. DE KERNIEA J. T.- HIETT.

CALCULATING MACHINE. (Application filed Nov. 26, 1897.)

5 Sheets-$heet 6.

(No Model.)

I4 I llllllll r J: I 1 (I o N d T l E H TL A E N R E K E D m 00 3 6 CALCULATING MACHINE.

(Application flied. Nov. 26. 1897.)

I5 Sheets--Sheet 7 {No Model.)

Hm W N Hg N0. 638,l|8. Patented Nov. 28, I899. DE KERNIEAJ. T. HIETT.

CALCULATING MACHINE. (Application filed Nov. 26. 1897.) No Model.) l5 Sheets-Sheet 8.

NO- 638MB. Patented Nov. 28, I899.

DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

' (Application filed Nov. 26, 18974) (No Model.) l5 Sheets-Sheet 9.

llllllllllllll mm. II.

Patented Nov. 28, I899. DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

(Application filed Nov. 28, 1897.)

I5 Sheets-Sheet ll].

(No Model.)

Patented Nov. 28, I899.

CALCULATING MACHINE.

(Application filed Nov. 26, 1897.]

I5 Sheets-Sheet II.

(No Model.)

No. 638,!l8. Patented Nov. 28, I899.

. DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

(Application filed Nov. 26, 1897.) (No Model.) l5 Sheets-Sheet i2.

dfiiiiiiiiii iiniiiiiiimu1 illlllllllllllll flrm.. ....1

ZZZ/T N0. 638,!l8. Patented Nov. 28, I899. DE KERNIEA J. T. HIE TT.

CALCULATING MACHINE.

(Application. filed Nov. 26, 1897.) (,No Model.) I5 Sheets-Sheet [3.

No. 638,!l8. Patented Nov. 28, I899. DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

{Application filed Nov. 26, 1897.) (No Model.) I5 Sheets-$heet l4.

Zia

No. 638MB. Patented Nov. 28, I899. DE KERNIEA J. T. HIETT.

CALCULATING MACHINE.

(Application filed Nov. 26, 1897.) (No Model.) I5 Sheets-Sheet I5.

I 54 7 /J6 7/ if /f, I xii UNITED STATES PATENT Carrots.

D KERNIEA J. 'r. HIETT, OF fsr. L

OUIS, MISSOURI, ASSIGNOR TO THE CALCULATING-MACHINE.

SPECIFICATION forming part of Letters Patent No. 6 dated l\l'0VemlO flL 189%?- Application filed November 26, 1897. Serial No. 659,793. (No model-i T at whom it may concern:

Beit known thatLDE KERNIEA J. T. HIETT, a citizen of the United States, residing at the city of St. Louis, State of Missouri, have invented a certain new and useful Improvement in Calculating-lvlachines, of which the following is a full, clear, and exact description, such as will enable others skilled in the art to which it appertains to make and use the same, reference being had to the accompanying drawings, forming part of this specification, in which- Figure 1 is a perspective view of my improved calculating-inachine. Fig. 2 is alongitudinal sectional view through the same. Fig. 3 is a side elevational View of the rear portion of the machine, the near side wallof the frame being removed in order to show the interior mechanism and some of the parts being shownin section. Fig. 4 is a front elevational view of the traveling device for carrying or transferring numbers from one of the adding-wheels to the next adding-wheel in advance when the number added to any of said adding-wheels exceeds nine. Fig. 5 is a bottom plan View of said carrying device. Fig. 6 is an enlarged sectional view through the rear portion of the machine, showing one of the rack-bars moved forward after the 5 key has been operated, the remaining parts being in their normal position. Fig. 7 is a view illustrating the rear portion of the machine, some of the parts being shown in elevation and the remainder in section. This view shows the position of the parts at the first movement of the handle, the printingsegments making their impression on the paper. Fig. Sis a view illustrating the position of the'moving parts when the operating-handle is in its extreme forward position. Fig. 9 is a rear elevational view. Fig. 10 is a top plan View of the rear portion of the machine. Fig. 11 is a plan view showing the rear ends of the rack-bars and the upper portion of the machine, a great number of the moving parts being omitted. Fig. 12 is an enlarged longi tudinal sectional-view illustrating the front end of the machine and showing key 5 in the. eighth series from the right depressed and itsrack-bar in a forward position. In this View the handlehas notyetbeen operated.

Fig. 13 is a sectional view looking toward the rear of the machine, taken on line a: m, Fig. 8. Fig. 14 is a plan View of the keyboard, some of the key-shanks being illustrated in section, while in the lower portion of said figure the key-shanks and their supporting-frames are entirelyomitted. Fig. 15 is a sectional View through the keyboard as seen from the left side of the machine. Fig. 16 is a sectional view through said keyboard, taken on liney y, Fig. 15, and looking toward the rear. Fig. 17 is a detailed view illustrating the manner of elevating the devices which retain the rack-bars in their normal position. Fig. 18 is a plan view of the printing-segments and their elevating-frame, and Fig. 19 is a detailed view illustrating the method of operation of the total-key and its associate parts. Fig. 20 is a detailed view illustrating a modified form of printing-segments, and Fig. 21 is a top plan view of the same.

This invention relates to a new and useful improvement in calculating-machines, the objeot being to construct a machine of the character described in a simple and cheap manner with a view to compactness of the parts and resultant accuracy of the mechanism.

One of the prime objects of this machineis to so arrange the parts relative to each other that they are each positively actuated to per form their several functions, no momentum or other unreliable medium being depended upon to effect any of the necessary movements of the levers, cranks, or wheels in the machine.

The principle of operation of the machine shown in the drawings may be briefly de scribed as follows: Assuming that it is desired to print and find the total of a column of figures, the figures forming the first item are set up on the keys forming the keyboard that is, if the item were four thousand three hundred and seventy-five the key marked a in the fourth series would be pressed down, the key marked 3 in the third series would be pressed down, the key marked 7 in the second series would be pressed down, and the key marked 5 in the first series would be pressed down. When these keys are pressed down, they set up stops and release the trips .which held back the springactuated rack-bars. Thus the rack-bars move forward a distance corresponding to the position of the depressed keys. The operatinghandle is now moved forward, its first function being to positively engage the rack-bars with the adding mechanism. Its next function is to cause the printing-segments, which are connected to the rack-bars, to move up and print the amount set up in the machine on a strip or piece of paper. The next function of the operating-handle is to withdraw the printing-segmei'lts from the paper and restore the rack-bars to their normal position, which places the sum set up on the keyboard in the adding mechanism. The operatinghandle then actnates certain feeding devices to feed the paper being printed upon and to space said item from the next item to be printed. The handle will have by this time reached its forward limit of stroke. In its return movement a carrying device will sweep along the adding mechanism, and if more than nine has been added to any of the wheels of the adding mechanism a stop or finger Will have been released, which is in the path of said sweep, which thereby actuates said finger, causing the next adding-wheel in ad vance to be moved one notch. The final movement of the handle to the rear restores the parts to their normal position.

After the several items have been placed in the machine and printed on the strip of paper should it be desired to strike a total a totalkey, as it is called, is moved to the rear, which causes the rack-bars to first engage the adding mechanism, said rack-bars then moving forward, rotating said adding-wheels in a direction opposite that which they were rotated in the normal operation of the machine until said adding-wheels are arrested by a yielding stop placed in the path of a pin or pins carried by said wheels. The printingsegments, being connected to the rack-bars, are likewise actuated, so that they will form a printing-line corresponding to the total of the numbers placed in the machine and printed on the paper. Moving the handle forward a very short distance will now cause the total to be printed on the strip of paper, and if it is desired to clear the machine of the example set up in it and restore the adding mechanism to zero the total-key is moved forward, which releases all the rack-bars and permits said rack-bars to move to their extreme for vard position, after which the forward movement of the handle will restore the rack-bars and clear the machine of the example set up in it. In this connection, if it is not desired to print the total a second time, the handle being in its rear position, I provide a lever extending outside the casing, which may be released from the operating-handle and in that way disconnect the printing mechanism from the handle during the time that the machine is being cleared of an example.

The essential features of my invention reside, first, in the novel construction and arrangement of the key-stops and a plurality of cooperating stops on the rack-bars, whereby when a key is actuated it sets up a stop for the rack-bar and trips said rack-bar, whose stops lock said key in its lowered position, said stops also locking the remaining keys of that series in their elevated position; second, in the novel construction and arrangement of the verti- Cally-movable racks, the means for moving said racks vertically into engagement with the adding mechanism, and an operating-hail dle for restoring the rack-bars to their normal position after their engagement with the adding mechanism to add an item in said adding mechanism; third, in the novel construction and arrangement of the transferring device, which cooperates with the adding mech anism and with the rack-bars for transferring numbers from one adding-wheel to the next adding-wheelinadvance; fourth, in the novel construction and arrangement of the transferring device, the adding mechanism, and the paper-feeding mechanism, which is actuated bysaid transferring device; fifth, in the novel construction, arrangement, and combination of a rocking frame for throwing the rack-bars into engagement with the adding mechanism and effecting the printing of the numbers set up on the keyboard; sixth, in the novel construction of the printing-segments, in combination with means for engaging and alining said printingsegments in their movement to make an impression upon the paper; seventh, in the novel construction and arrangement of the laterally-adjustable paper-feed rollers, whereby it is possible to print two or more columns of figures on a piece of paper or leaf of abook, (RUG. eighth, in the novel mechanism for obtaining a total and clearing the machine of an example; and, finally, the invention consists in the novel construction, arrangement, and combination of the several parts of the machine, all as will hereinafter be described, and pointed out in the claims.

Referring now to the drawings and particularly with reference to Figs. 12 to 17, 1 illdicates what I shall term a sliding bar. This bar is mounted in suitable guides in the framing of the machine and is connected to a spring 2, said spring exerting a constant tendency to pull the bar forward. Each bar is formed with a shoulder 3, preferably on its lower edge, with which shoulder cooperates a spring-pressed projection 45, as shown more clearly in Fig. 16. This projection extends from a pivoted wing 5, which is held in an elevated position by springs 6, as shown in Fig. 17.

7 indicates the shanks of the keys, which are held in an elevated position by springs 8. These key-shanks carry heads 9, which are preferably numbered and arranged as shown in Fig. 1, where it will be seen that they are numbered from 1 to 9, the keys so numbered forming what 1 shall term a series. Each key carries a stop,comprising a vertical portion 10 and a horizontal portion 11, with the exception of the shanks of the 9 keys, which are not provided with stops, because when any of said 9 keys are actuated the rack-bars move to their forward limits.

The bars 1 are provided with a number of stops or projections 12, which cooperate with the key-stops 1O 11. As seen in Fig. 16, the bars 1 are made of thin metal, and the projections 12 are formed by bending over the wings or edges on another strip of metal, which is riveted to said bars. Projections 12 are preferably formed so as to travel in two horizontal planes, thus permitting an arrangement of the key-stops 10 ll such as shown in Fig. 12, which will enable a proper cooperation with their respective stops 12 on the bars 1. By this I mean that the key-stops on keys 1, 2, and 3 are near the lower ends of the keys, While the key-stops on keys 4 to S, inclusive, are staggered. I also prefer to arrange each series of keys in a removable frame 13, whereby in the event of any disorder in the operation of the keys or their associate parts in a series said frame may be removed and replaced without disturbing the remaining keys of the keyboard.

Assuming that key 5 has been depressed, as shown in Fig. 12, it will set up its stop, as shown by the dotted lines, or, in other words, place its stop in the path of one of the projections 12 of its cooperating bar. All the keys of a series are arranged over a wing 5, so that when any of said keys are depressed they will depress said wing, disengaging the projection 4 from the shoulder 3, permitting the bar 1 to move forward until one of its projections 12 engages the vertical wall 10 of the stop of the depressed key, after which when the key is released instead of rising under the tension of its spring 8 the horizontal portion 11 of the key-stop will engage the stop 12 and hold the key in its depressed position. This is advantageous in that the operator may know which keys have been depressed when an example has been set up and before it is placed in the machine. If a mistake has been made, it may be corrected before placing the sum in the adding mechanism of the machine if the actuated bar of the series of keys in which the mistake occurs is pushed back before the handle is operated. This can be done by the operator with no trouble, the key remaining in its depressed position by reason of the length of the horizontal portions 11 of its stop, which is commensurate with the distance of the movement of the bar when the key is depressed, thereby keeping the key down until the projection a is ready to engage the shoulder 3. It will be noticed that key 1 has ashort horizontal portion 11, because the bar moves but a short distance when this key is depressed, while key 2 has a longer projection 11, and so on up to key 8. The projections 11 practically correspond with the length of the distance of movement of the number of teeth on the racks carried by the bars which are moved pasta given point on the adding-wheels when any of the keys are depressed. It will also be noticed that when any one of the keys of a series is depressed the projections 12 pass over the portions 1l.of the key-stop immediately that the trip 4 releases the bar. This prevents the key from rising and taking its stop out of the path of the projection 12 on the bar, which would be a serious objection. To illustrate, should the key 1 be quickly struck and there was no proper cooperation between its stop 10 11 and the projection 12 on the bar 1 the key would rise and the bar move the full forward stroke, causing nine to be added and printed in the machine instead of the desired number, one. Again, all of the projections 12 when a bar is actuated with the exception of the projection 12, which passes over the portion 11 of the depressed key, move under the portions 11 of the keys, which locks said keys in their elevated position and prevents them being depressed or disturbing in any manner the depressed key. iVhen the key 9 is depressed, as there is no provision on said key. to limit the forward movement of the bar 1, said bar moving the extreme distance of its forward stroke, I preferably provide a shoulder 1 near the forward end of said bar and on its upper edge,

which engages the front wall of the framing of the machine, thus forming a stop.

The projection 2, to which the spring 2 is connected at its rear end, is preferably pivoted at 2, its lower end engaging with a stud or projection 2, fixed to the bar 1. The object of so pivoting this projection 2 is to enable it to swing back out of the way when the bar is introduced into the machine.

1a indicates a rack secured to the bar 1 by means of guides 15, which permit said rack to 'move vertically relative to the bar which carries the same. The lower ends of these racks 1 1 are provided with lateral guiding projections 16, which pass under suitable guideways 17, mounted on a plate 18, as best shown in Fig. 13. This construction permits the racks 1a to move forward or backward with the bars to which they are respectively connected, but by reason of the sliding connection 16 17 with the plate 18 they are practically locked to said plate so far as vertical movement is concerned. Plate 18 is secured to a transversely-disposed bar 19, whose ends are preferably grooved .to receive vertical guiding-ribs 20, secured to the side framing of the machine, as shown in Fig. 11.

21 indicates two posts extending up from the ends of the bar 19, said posts being connected at their upper ends by a locking-bar 22, which extends across the adding mechanism and cooperates with the adding-wheels in a manner to. be hereinafter described. This construction, comprising, as it does, the crossbar 19 and the locking-bar 22, which are connected at their ends by the posts 21, makes a very rigid framing, which under certain operations of the machine is moved vertically to accomplish the engagement of the racks it with the adding-wheels and thelunlocking or release of said addingwheels by the lockingbar 22 when said racks are in engagement therewith.

23 indicates a rocking frame which is pivoted in the side framing of the machine, said frame being provided with arms 24, which extend forwardly on each side to points beneath the ends of bar 19, said arms 21- preferably carrying set-screws 25, which bear against the under side of the bar 19 to raise the same and its associate parts whenever the frame 23 is rocked. The set-screws 25 may be adjusted to accommodate the arms 2-1- to the bar 19.

26 indicates an arm which projects rearwardly from the rocking frame 23, and preferably at the right side of the machine. This arm 26 is provided at its extreme rear upper end with a cam portion or curved face 27, whose function will hereinafter be described. Vhenever this arm 26 is depressed, the frame 23 is rocked, elevating the bar 10, which raises the racks 14; into engagement with the add ing-wheels and raises the locking-bar 22 out of engagement with the teeth of said addingwheels.

- 2Sindicates the operating-handle of the ma chine,which is preferably pivoted on the outside of the side framing of the machine. This operating-handle carries an inwardly-projecting pin 29, to which is detaehably connected a rod 30, which projects through an opening in the side framing of the machine, as shown in Figs. 1, 3, 7, and 14;. This bar is connected at its rear end to an arm 31, which is mounted on a lug 32, preferably formed on a casting 33, which extends transversely the machine. Arm 31 carries at its lower end a roller 31, which cooperates with the cam-face 27 of arm 26 and depresses said arm 26 whenever the handle is moved forward and the rod 30 is connected to the handle. Of course when the rod 30 is disconnected from the handle the arm 31 and the parts which it actuates remain stationary.

35 indicates a rod pivoted to the handle 28 and connected at its rear end to a crank-lever 36, which is mounted on a cross-shaft 37, extending practically across the machine. This cross-shaft 37 carries two crank-arn'is 38, at whose ends are pivotally connected links 39, whose forward ,ends carry a crossbar 4.0, operating above the bars 1 and cooperating with stops 4E1, secured to said bars to restore said bars and their carried racks to their normal position when the handle 28 is moved forward.

2 indicates an arm pivoted to the side framing of the machine and formed with a stepped lower end which cooperates with a lateral projection or pin 4-3, extending from the rearend ofthe arm 26. A spring 1 2, having its front end attached to the side framing of the machine, tends to normally hold arm 42 in aforward position against a pin 43, or,

as shown in Fig. '7, when said arm 26 is depressed to move the arm t2 forwardly until pin 43 is below the lower end of the arm 42, when the arm 26 is locked in its lower position and prevented from rising. v

Arm 31 carries a laterally-projeeting pin et-t for restoring the arm $2 to its normal position, thereby releasing the arm 26 when arm 31 is inits rearmost position, as shown in Fig. 3. Arm 3]. also carries a slotted extension 45, which cooperates with a hook bar -16. This hook-bar 4:6 is pivoted at its upper end to a crank-arm -17, mounted on a cross-rod 18, having hearings in suitable lugs i9, extending from a frame 50, which is secured to the casting 33. Rod 4:8 carries two slotted arms 51, operating on each side of frame 50. The lower end of hookbar a6 is formed with a hook portion 4:6,whieh cooperates with a projection 26 at the rear end of the arm 26 of the rocking frame. \Vhen said arm 26 is depressed, its projeetion 26 strikes the hook 4E6 and carries the hook-bar 4L6 downwardly and elevates the printing-segments to make an impression. The hook-bar 416 is held down, as shown in Fig. 7, until the rear wall of the slotted piece 45 on the arm 31 strikes it, when said hook-bar is moved forwardly, as shown in Fig. 8, disengaging its hook 16 from the projection 26, permitting the arm 26 to rise, its pin 13 then engaging and becoming locked under the arm 4.2, while the printing-segments are allowed to drop from their elevated or printing position. The object in so lockingthe arm 26 in its lowered position is to relieve the arm 31 of unnecessary labor, because after it has performed its work, which practically terminates after it leaves the cam-rise 27, it has nothing more to do so far as its roller 3t is concerned, although its slot-ted extension 1-5 is operative while said arm continues its forward stroke.

52 indicates a short shaft mounted in the ends of arms 51 and passing through verticallydisposed slots in the frame 50, as more clearly shown in Fig. 2. Shaft 52 forms a pivotal bearing for the printing-segments 53, which are nested thereon, as shown more clearly in Figs. 9, 10, 15-3, and 18, each of said printing-segments having diverging lower members which are provided with laterally extending pins 54:, engaging slots in the rear ends of the bars 1.

56 indicates a vertically-movable frame which is slidinglyarranged within the frame 50, said frame 56 being guided in its vertical movement by guidingrods 57, which pass through suitable openings in lugs on the frame 50, as shown more clearly in Figs. 9 and 18. Frame 56 also affords bearings for shaft 52 of the printing-segments, besides carrying a bar 58 in rearwardly-extending lugs, which bar cooperates with the tailpieees of the naught-carrying type-frames carried by the printing-segments to actuate said naughtcarrying type-frames to print zero-marks to the right of any actuated printing-segment. Each printing-segment carries suitable type or printing characters on its periphery, from 1 to 9, as shown in Figs. 1.0 and 18. The naught or Zero type are carried on separate frames 60, pivoted at 61 to the printing-segments. These pivoted frames 60 have curved tailpieces 62, which when elevated are concentric to the pivotal points of the printingsegments. These tailpieces 62 carry lateral projections 03, which extend over the next tailpiece of the adjacent naught -carrying frame to the left, as shown more clearly in Figs. 9 and 18.

64 indicates a locking and alining bar secured in posts extending up on each side of the stationary frame 50. This bar is adapted to cooperate with notches 65, formed in the printing-segments, said notches being correspondingly spaced relative to the printing characters carried by the segment, so that when said segments are elevated to make an impression the bar 64 will enter the notches 65 in the segments, lock the same together, and absolutely aliue the printing-type, thus preventing an irregular line of printed characters.

A platen 67, against which the printing characters strike, is arranged 011 an arm 68,

which extends over the printing-line of the printing-segments, as shown more clearly in Figs. 2, 6, 7, and 10. This arm 68 carries a frame 70, in which are mounted two feed-rolls 71 and 72 for feeding the strip of paper to be printed upon. The frame is preferably slidingly mounted by means of a dovetailed groove in the arm 68, in which an extension 011 the frame 70 runs, as shown more clearly in Figs. (3 and 7. Frame 70 is open at one side, as shown in Fig. 10, to permit a sheet of paper or a leaf of a book to be introduced into the machine from the side to be printed upon, if desired. In addition to this, this frame 70, with its rolls 71 and 72, may be moved laterally across the machine to enable the printing of two or more columns on a single piece of paper. In order to lock the frame when printing a single column on a piece of paper, I preferably pivot a knob 73 thereon, which knob cooperates with notches in a bar 74:, as shown in Figs. 9 and 10.

The forward feeding-roll 71 is mounted on a grooved shaft 75 and is positively driven by said shaft in the following manner: On shaft 75 is a ratchet-wheel 76 and also a hand-wheel 77, by which said shaft may be manually rotated. Ratchet-wheel 70 is engaged by a pawl 78, as shown in Fig. 8, said pawl having an extension 70, by which it may be moved out of engagement with the ratchet-wheel when the hand-wheel 77 is turned. Pawl 78 is mounted on an arm 80, pivoted on the shaft 75, said arm 80 being connected by a link 81 to a crank-arm 82, which is mounted on a shaft 83. Shaft 83 carries an arm 84, which is engaged by a cam'face on the carrying or transferring device, and thereby rocked at each complete operation of the handle. Shaft 83 also carries an arm 85, which engages a ratchet-wheel 80, connected to a spindle on which a spool 87 is mounted, said spool carrying inking-ribbon 88, whose other end is wound on a spool 89, said latter spool having preferably connected to it a handle 90, by which the ribbon may be wound when it is about exhausted from said spool 89 and it is desired to fill up spool 89 with a view to aumatically winding said ribbon on the spool 87. A wire frame 01 is also preferably provided for supporting the ribbon over the printing-segments.

I will now describe the adding mechanism and the manner of transferring a number from one of the adding-wheels to another of said addingwheels whenever one of said wheels has been actuated a distance of nine teeth.

indicates a shaft mounted in the side framing of the machine, upon which shaft are loosely arranged a number of gear-wheels 101. In the drawings I have shown these gear-wheels as being provided with thirty teeth. Near the peripheries thereof are laterally-projecting pins 102, there being three pins, which are placed equidistantly apart and projecting to the left side of the wheel, thus making one pin for every ten teeth on the wheels 101.

103 indicates a shaft mounted in the side framing of the machine, said shaft carrying numeral-wheels 104, which are marked on their faces with numbers from 1 to 0 and also the zero-marks. Each numeralwheel has conjoined to it a pinion 105, having ten teeth meshing with one of the gearwheels 101. The framing of the machine above these numeral-wheels 104 is provided with sight-openings through which the numbers on the numeral-wheels may be seen, whereby the operator is enabled to determine the total of the numbers placed in the machine, which should correspond with the printed total when the same is struck or printed on the paper.

106 indicates a shaft upon which are mounted a number ofindependently-movable levers 107, whose construction is clearly shown in Figs. 6, 8, and 13. Levers 107 have springs 108 attached to their upper ends, tending to draw said upper ends to the rear, the other ends of said springs being secured to a crossbar 100, said cross-bar also acting as a stop for therearward movement of said levers. Tripping-pawls 110 are pivotally mounted on the upper ends of levers 107, the forward ends of said pawls being normally pressed downward by springs 111, so that said pawls will engage a cross-bar 112 and normally retain the levers 107 in a forward position, as indicated in Fig. 6. The lower ends of levers 107 carry pawls 113, which are normally held in their lowered position by springs 114, a stop 113 being provided to limit the downward movement of said pawls. These pawls 113 are adapted to cooperate with projections 115 on the racks 14:, as hereinafter described. 

